Evolution of Smart Sensing Ecosystems with Tamper Evident Security

lt;p> Prof. PUT, PhD, DSc Pawel Sniatala Vice-Rector of Poznan University of Technology for International Relations (2020-2024) and the Coordinator for EUNICE European University project. He received the M.S. degree in Telecommunication, M.S. degree in Computer Science and Ph.D. degree in Microelectronics - all from Poznan University of Technology, Poland. He obtained the habilitation degree (D.Sc.) in electronics in 2016. From 1998 to 2002 he worked at the Department of Computer Engineering at the Rochester Institute of Technology (USA). He returned to Poznan University of Technology to take a position at the Faculty of Computing. He hold a position of the Vice-Dean for Industrial Cooperation in the period 2016-2020. He has also graduated the international MBA study in joint programme George State University and Poznan University of Economics.

His area of interests focuses on VLSI circuits for digital and mixed analog-digital signal processing systems: Ultra-Low Power ASIC design, Implantable IC, Signal/Image processing hardware-software co-design, Hardware accelerators. However, following his computing science background, he is also involved in research projects related to eHealth area and Cybersecurity issues. He was involved in several industrial projects e.g.: control and monitoring systems for gas mine systems, control systems for water treatment plant and teletechniques systems for airports. Currently he is involved in H2020 project CAPABLE - "CAncer PAtients Better Life Experience". He served in several international PhD and MS committees (Portugal, USA). He was a visiting professor in several universities outside Poland in: USA, Portugal, Peru, Taiwan. He is an author and co-author of over 100 papers including two monographs.

Dr. S.S. Iyengar is currently the Distinguished University Professor, Ryder Professor of Computer Science and a former Director of the School of Computing and Information Sciences at Florida International University (FIU), Miami. He is also the founding director of the Discovery Lab. Prior to joining FIU, Dr. Iyengar was the Roy Paul Daniel's Distinguished Professor and Chairman of the Computer Science department for over 20 years at Lousiana State University. He has also worked as a visiting scientist at Oak Ridge National Lab, Jet Propulsion Lab, Satish Dhawan Professor at IISc and Homi Bhabha Professor at IGCAR, Kalpakkam and University of Paris and visited Tsinghua University, Korea Advanced Institute of Science and Technology (KAIST) etc. His research interests include High-Performance Algorithms, Biomedical Computing, Sensor Fusion, and Intelligent Systems for the last four decades. His research has been funded by the National Science Foundation (NSF), Defense Advanced Research Projects Agency (DARPA), Multi-University Research Initiative (MURI Program), Office of Naval Research (ONR), Department of Energy / Oak Ridge National Laboratory (DOE/ORNL), Naval Research Laboratory (NRL), National Aeronautics and Space Administration (NASA), US Army Research Office (URO), and various state agencies and companies. He has served on the US National Science Foundation and National Institute of Health Panels to review proposals in various aspects of Computational Science and has been involved as an external evaluator (ABET-accreditation) for several Computer Science and Engineering Departments across the country and the world. Dr. Iyengar has also served as a research proposal evaluator for the National Academy of Engineering. Dr. Iyengar is developing computational measures for predicting DNA mutations during cancer evolution, using wavelet analysis in cancer genome research, and designing smart biomarkers for bioremediation. His inventions have significantly impacted biomedical engineering and medicine. He recently patented a simple, low-cost device for early intervention in glaucoma, and was

Introduction.- Part I: Growth of Sensory devices and their proliferation into daily life.- Smart Objects in Cyber-Physical Systems.- IoT Security.- Part II: Securing the Internet-of-Things enabled Smart Environments.- Understanding the smart systems.- Onboarding new IoT Devices.- Part III Cryptosystems - Foundations and the current state-of-the-art.- Symmetric key Cryptography.- Asymmetric Key Cryptography.- Part IV Modern Encryption Schemes.- Homomorphic Encryption.- Popular Homomorphic Encryption Schemes.- Industrial involvement in the use of Homomorphic Encryption.- Non-malleable cryptosystem.- Machine Learning based Cryptosystems.- Neural Cryptography.- Part V: Creating a Tamper Evident System for the Cyber Era.- Tamper evident system - Our Major Proposition.- Part VI: Feasibility and Performance Analysis.- Implementation Details.- Threat Model.- Part VII: Future Directions.- Quantum Cryptography.- Quantum Tools.- Applications.- Conclusion.